A C-terminal "Tail" Region in the Rous Sarcoma Virus Integrase Provides High Plasticity of Functional Integrase Oligomerization during Intasome Assembly.

The retrovirus integrase (IN) inserts the viral cDNA into the host DNA genome. Atomic structures of five different retrovirus INs complexed with their respective viral DNA or branched viral/target DNA substrates have indicated these intasomes are composed of IN subunits ranging from tetramers, to octamers, or to hexadecamers. IN precursors are monomers, dimers, or tetramers in solution. But how intasome assembly is controlled remains unclear. Therefore, we sought to unravel the functional mechanisms in different intasomes. We produced kinetically stabilized Rous sarcoma virus (RSV) intasomes with human immunodeficiency virus type 1 strand transfer inhibitors that interact simultaneously with IN and viral DNA within intasomes. We examined the ability of RSV IN dimers to assemble two viral DNA molecules into intasomes containing IN tetramers in contrast to one possessing IN octamers. We observed that the last 18 residues of the C terminus ("tail" region) of IN (residues 1-286) determined whether an IN tetramer or octamer assembled with viral DNA. A series of truncations of the tail region indicated that these 18 residues are critical for the assembly of an intasome containing IN octamers but not for an intasome containing IN tetramers. The C-terminally truncated IN (residues 1-269) produced an intasome that contained tetramers but failed to produce an intasome with octamers. Both intasomes have similar catalytic activities. The results suggest a high degree of plasticity for functional multimerization and reveal a critical role of the C-terminal tail region of IN in higher order oligomerization of intasomes, potentially informing future strategies to prevent retroviral integration.

NC-mediated nucleolar localization of retroviral gag proteins.

The assembly and release of retrovirus particles from the cell membrane is directed by the Gag polyprotein. The Gag protein of Rous sarcoma virus (RSV) traffics through the nucleus prior to plasma membrane localization. We previously reported that nuclear localization of RSV Gag is linked to efficient packaging of viral genomic RNA, however the intranuclear activities of RSV Gag are not well understood. To gain insight into the properties of the RSV Gag protein within the nucleus, we examined the subnuclear localization and dynamic trafficking of RSV Gag. Restriction of RSV Gag to the nucleus by mutating its nuclear export signal (NES) in the p10 domain or interfering with CRM1-mediated nuclear export of Gag by leptomycin B (LMB) treatment led to the accumulation of Gag in nucleoli and discrete nucleoplasmic foci. Retention of RSV Gag in nucleoli was reduced with cis-expression of the 5' untranslated RU5 region of the viral RNA genome, suggesting the psi (Ψ) packaging signal may alter the subnuclear localization of Gag. Fluorescence recovery after photobleaching (FRAP) demonstrated that the nucleolar fraction of Gag was highly mobile, indicating that there was rapid exchange with Gag proteins in the nucleoplasm. RSV Gag is targeted to nucleoli by a nucleolar localization signal (NoLS) in the NC domain, and similarly, the human immunodeficiency virus type 1 (HIV-1) NC protein also contains an NoLS consisting of basic residues. Interestingly, co-expression of HIV-1 NC or Rev with HIV-1 Gag resulted in accumulation of Gag in nucleoli. Moreover, a subpopulation of HIV-1 Gag was detected in the nucleoli of HeLa cells stably expressing the entire HIV-1 genome in a Rev-dependent fashion. These findings suggest that the RSV and HIV-1 Gag proteins undergo nucleolar trafficking in the setting of viral infection.

Intronic deletions that disrupt mRNA splicing of the tva receptor gene result in decreased susceptibility to infection by avian sarcoma and leukosis virus subgroup A.

The group of closely related avian sarcoma and leukosis viruses (ASLVs) evolved from a common ancestor into multiple subgroups, A to J, with differential host range among galliform species and chicken lines. These subgroups differ in variable parts of their envelope glycoproteins, the major determinants of virus interaction with specific receptor molecules. Three genetic loci, tva, tvb, and tvc, code for single membrane-spanning receptors from diverse protein families that confer susceptibility to the ASLV subgroups. The host range expansion of the ancestral virus might have been driven by gradual evolution of resistance in host cells, and the resistance alleles in all three receptor loci have been identified. Here, we characterized two alleles of the tva receptor gene with similar intronic deletions comprising the deduced branch-point signal within the first intron and leading to inefficient splicing of tva mRNA. As a result, we observed decreased susceptibility to subgroup A ASLV in vitro and in vivo. These alleles were independently found in a close-bred line of domestic chicken and Indian red jungle fowl (Gallus gallus murghi), suggesting that their prevalence might be much wider in outbred chicken breeds. We identified defective splicing to be a mechanism of resistance to ASLV and conclude that such a type of mutation could play an important role in virus-host coevolution.

Tap and Dbp5, but not Gag, are involved in DR-mediated nuclear export of unspliced Rous sarcoma virus RNA.

All retroviruses must circumvent cellular restrictions on the export of unspliced RNAs from the nucleus. While the unspliced RNA export pathways for HIV and Mason-Pfizer monkey virus are well characterized, that of Rous sarcoma virus (RSV) is not. We have previously reported that the RSV direct repeat (DR) elements are involved in the cytoplasmic accumulation of unspliced viral RNA. Here, using fluorescent in situ hybridization (FISH), we demonstrate that unspliced viral RNAs bearing a single point mutation (G8863C) in the DR exhibit a restricted cellular localization in and around the nucleus. In contrast, wild type unspliced viral RNA had a diffuse localization throughout the nucleus and cytoplasm. Since the RSV Gag protein has a transient localization in the nucleus, we examined the effect of Gag over-expression on a DR-mediated reporter construct. While Gag did not enhance DR-mediated nuclear export, the dominant-negative expression of two cellular export factors, Tap and Dbp5, inhibited expression of the same reporter construct. Furthermore, FISH studies using the dominant-negative Dbp5 demonstrated that unspliced wild type RSV RNA was retained within the nucleus. Taken together, these results further implicate the DR in nuclear RNA export through interactions with Tap and Dbp5.

Arising podosomal structures are associated with neoplastic cell morphological phenotype induced by the microenvironment.

Increased numbers of rosettes of podosomes were observed in overgrown rat Rous sarcoma RsK4 cells. A possible role of these structures in nutrient uptake in tumour cell survival was investigated by exposure to acute starvation. A single cell suspension of RsK4 cells in Hanks balanced salt solution was allowed to interact with either clean uncoated or serum-coated for bait coverglasses. Confocal microscopy revealed contrasting 3D cell morphologies that were associated with conspicuous patterns of podosomal structures, which on the coated coverglasses resembled the sealing zones of osteoclasts, while on the uncoated coverglasses they resembled the marginal podosomes of migrating monocyte-derived cells. Thus, the arising podosomal structures, the involvement of which in an uptake of nutrients appeared feasible morphologically, were associated with the emerging 3D cell shapes guided by the microenvironment. Such phenotypic plasticity of neoplastic RsK4 cells in response to microenvironmental challenge suggested that uniqueness in cellular attributes within the neoplastic cell population could be crucial for the malignant potential.

Reconstitution of retroviral fusion and uncoating in a cell-free system.

The molecular events underlying the immediate steps of retroviral uncoating, occurring after membrane fusion and leading to the formation of an active reverse transcription complex, are not known. To better understand these processes, we have developed a cell-free system that recapitulates these early steps of retroviral replication by using avian sarcoma and leukosis virus as a model retrovirus. The substrates used in this system are viral particles that are trapped before completing membrane fusion. These virions are induced to fuse out of endosomes and the viral cores are released into solution where they are amenable to biochemical manipulation. This system revealed that membrane fusion is not sufficient to stimulate the formation of a reverse transcription complex. Instead, ATP hydrolysis and cellular factors >5 kDa in size are required. Furthermore, later steps of avian sarcoma and leukosis virus reverse transcription were stimulated by nuclear factors. The cell-free system should now allow for the definition of retroviral uncoating mechanisms and facilitate the identification and characterization of the cellular factors involved.

Multidrug-resistant tumor cells with decreased malignancy: a role for integrin alphavbeta3.

We studied whether acquisition of multidrug resistance (MDR) by tumor cells can alter their integrin profile and malignant behavior. Hamster fibroblast cell line HET-SR-2SC-LNM was selected for MDR, yielding the 2SC/20 subline. Compared with the parental cells, the 2SC/20 subline weakly adhered to denatured collagen (dCol) which correlated with decreased expression of alphavbeta3, a dCol receptor. Importantly, 2SC/20 subline demonstrated significantly decreased activity of collagenase MMP-2, lower ability to invade Matrigel, and attenuated metastasis in syngeneic animals. We provide evidence for the first time that selection for MDR can be associated with down-regulation of alphavbeta3 integrin, supporting our recent proof of the pro-apoptotic role of this integrin (Oncogene 20 (2001) 4710). Lack of alphavbeta3 expression may link cell survival under toxic conditions with decreased malignancy of the resulting drug resistant tumor.

Particular types of tumor cells have the capacity to convert transforming growth factor beta from a latent to an active form.

We investigated the capacities of various tumor types to generate an active versus latent form of transforming growth factor beta (TGF-beta) in its culture supernatants (SNs). Tumor cell lines were divided into three types depending on the form and magnitude of TGF-beta detected in their culture SNs: some (2 of 7 lines) generated mostly an active form (Type A); others (4 of 7) generated exclusively a latent form (Type B); and the remaining line (1 of 7) produced only marginal levels of active/latent TGF-beta (Type C). When Type A tumor cells were cultured at lower numbers, cultures failed to generate active TGF-beta. However, the addition of Type B tumor cell culture SNs containing only a latent form of TGF-beta resulted in the generation of the potent activity of active TGF-beta. This capacity was observed for another Type A tumor but not for other types (Type B and Type C). An active form of TGF-beta was detected in culture SNs of Type A tumor cells as early as 3-6 h after the addition of Type B tumor culture SNs. The emergence of an active form of TGF-beta was also observed in cultures of Type A tumor cells, the protein synthesis of which was almost completely inhibited by pretreatment with cycloheximide. Moreover, the Type B tumor SN used for the induction of active TGF-beta activity was found to contain latent TGF-beta with an apparent molecular weight of about 200,000. Type A tumor cells were also capable of generating active TGF-beta by the addition of recombinant TGF-beta of latent form with a small molecular weight (about 60,000), although the generation of active TGF-beta was much weaker after the addition of small latent TGF-beta than after the addition of large latent TGF-beta. Taken collectively, these results indicate that particular types of tumor cells have the capacity to generate an active form of TGF-beta and that such capacity can be attributed to their potential to convert TGF-beta from a latent (mainly large type) to an active form.

Macrophage infiltration and growth of sarcoma clones expressing different amounts of monocyte chemotactic protein/JE.

Tumor-derived chemotactic factors (TDCF) have been identified and thought to play a role in the regulation of macrophage infiltration in neoplastic tissues. The present study was designed to assess the in vivo relevance of the TDCF molecularly identified as monocyte chemotactic protein/JE, by investigating murine sarcoma clones expressing different levels of MCP/JE. The 1D3 clone derived from the B77 RSV-induced sarcoma expressed appreciable levels of MCP/JE mRNA and, concomitantly, chemotactic activity for mononuclear phagocytes. In contrast, the 5B11 clone from the same tumor had undetectable levels of MCP/JE transcripts and little or no chemotactic activity. The chemotactic activity of 1D3 cells was blocked by an appropriate specific antiserum. The in vitro growth rate of the 2 sarcoma lines was identical. Upon in vivo transplantation, the 1D3 clone showed a substantially higher level of tumor-associated macrophages (28.9%; range 21%-34%) than the 5B11 clone (16.6%; range 13%-20%). 5B11-induced tumors appeared earlier and grew faster than those induced by 1D3. The difference in growth rate and in macrophage infiltration between 1D3 and 5B11 clones was also evident upon transplantation into nude mice. These results are consistent with the hypothesis that TDCF, identified as MCP/JE, is one important determinant of macrophage infiltration in tumors.

Phosphorylation of integrin in differentiating ts-Rous sarcoma virus-infected myogenic cells.

The differentiation of primary myogenic cultures requires the attachment of the cells to an extracellular matrix substrate using an integrin family receptor. These integrin receptors can be phosphorylated on both their alpha and beta chains, and it has been postulated that phosphorylation regulates the receptor function. Quail myogenic clones transformed with ts-LA24A differentiated into mature myotubes following a temperature shift to nonpermissive temperature which inactivates the viral src kinas. Phosphorylation of integrin beta-1 chain and of at least one alpha chain was detected on both serine and tyrosine. An additional alpha chain(s) with a mobility similar to alpha 5 was not phosphorylated at either temperature. Following the induction of differentiation by a temperature shift, there was a marked decrease in integrin phosphorylation of both alpha and beta integrin chains. This decrease was more prominent for serine than for tyrosine, suggesting that src could not be the only kinase involved. The drop in integrin phosphorylation correlated with the initiation of differentiation, suggesting that integrin phosphorylation could be at least part of the mechanism by which myogenic differentiation is blocked by v-src.

[The levels of DNA repair in the cells of diploid and tetraploid cell cultures]. / Issledovanie urovnei reparatsii DNK v kletkakh diploidnykh i tetraploidnykh kletochnykh kul'tur.

Levels of unscheduled DNA synthesis after UV-irradiation were investigated in addition to the activities of DNA-repair enzyme uracil-DNA glycosilase in cells of both diploid (XC-D) and tetraploid (XC-T) cell cultures. It was shown that repair levels were increasing directly and proportionally to the cell ploidy.

Phospholipids and gangliosides in the Rous sarcoma.

Ten days after inoculation of sarcomatous homogenate in the leg muscle of chickens, the appearance of sarcomatous tumours was observed by electron microscopy. Viral replication and cell transformation strongly altered phospholipids and glycolipids content of the tissue: 6.12 +/- 0.23 micromoles phospholipid phosphorus/g tissue in normal tissue and 3.5 +/- 0.19 micromoles phosphorus/g tissue in sarcomatous tissue. The concentration of lipid-bound sialic acids in normal tissues was 10.5 +/- 0 nmoles/g tissue and 24.27 +/- 0.8 nmoles/g tissue in sarcomatous tissue.

Enhanced fibronectin receptor expression in Rous sarcoma virus-induced tumors.

The mechanisms by which cells acquire the capacity to invade interstitial connective tissues during malignancy are as yet uncertain. Since the fibronectin receptor complex has been implicated in transient, developmentally regulated steps of migration and morphogenesis in embryogenesis, we examined whether this receptor might be reexpressed at elevated levels in tumors. Immunofluorescence revealed increased expression of the receptor throughout frozen sections of Rous sarcoma virus-induced tumors in chickens, and expression was enhanced 4.7-fold after such malignant transformation of fibrocytes in vivo. Frozen thin sections showed that the increased antigen was localized diffusely in the plasma membrane. Western immunoblotting with monoclonal antibodies and immunoprecipitation analyses indicated that the tumor cell receptor contained all three known avian receptor subunits, i.e., Bands 1, 2, and 3. This type of induction of a key extracellular matrix receptor involved in cell migration may be a prerequisite for tumor cell invasion.

Altered pp60src kinase activity in regressing tumors induced by Rous sarcoma virus.

Tumors which are induced in chickens by Rous sarcoma virus (RSV) usually grow progressively for several weeks and then regress. pp60src kinase activity was found to be reduced in cultured tumor cells which derived from regressing sarcomas by 60-75% as compared to progressively growing neoplasms. We further found that a cellular pp89 which co-precipitated with pp60src was largely diminished in tumor cells derived from regressing as compared with progressively growing sarcomas. In contrast, immunoprecipitation analyses from membrane or cytosol fractions did not reveal any significant differences between these 2 types of tumor cells in distribution of pp60src. Moreover, partial proteolysis or isoelectric focussing of labelled immunoprecipitated pp60src did not reveal major differences between the 2 tumor cell types. These data indicate that the lack of pp89 cell binding to pp60src in regressing sarcoma cells correlates well with the diminution of the pp60src kinase activity in these cells, but does not affect the transport of pp60src to the plasma membrane.

Organ and tumor distribution of (18F)-2-fluoro-2-deoxy-D-glucose in fasting and non-fasting rats.

Differences in the uptake of (18F)-2-fluoro-2-deoxy-D-glucose ((18F)FDG) in various normal organs and the Rous sarcoma of fasted and unfasted rats were studied at 5, 15, 30, 60, and 120 minutes after i.v. injection. The uptake of (18F)FDG in the tumor, spleen, and testis increased for 120 minutes, while uptake in the other organs was either level (brain, heart, white fat) or cleared off. The uptake was higher in the tumor than in the normal organs. The fraction of viable tumor tissue as measured morphometrically correlated intraindividually with the uptake of (18F)FDG--an increase of 1% of vital tumor corresponded to a 1.01-fold increase in tumor uptake of (18F)FDG. The nutritional state was of importance for the uptake of (18F)FDG into the heart, testis and brown fat. (18F)FDG is taken quantitatively up by the viable parts of the Rous tumor; this may make it possible to follow the response of treatment in individual tumors also in man with (18F)FDG and positron emission tomography (PET).

Malondialdehyde production from spermine by homogenates of normal and transformed cells.

The oxidation of spermine in vitro by a mixture of polyamine oxidase and diamine oxidase from pig kidney gives rise to malondialdehyde via 3-aminopropanol as the intermediate. Conversely, with spermidine, under similar experimental conditions, no evidence could be obtained for malondialdehyde formation within the limits of sensitivity of the assay (2.0 nmol). The activities of both these enzymes show about a 2-fold increase in normal rat kidney cells (LA31 NRK) transformed by the temperature sensitive mutant of Rous sarcoma virus (LA31) and incubated at the non permissive temperature (39 degrees C) compared to the activities in LA31 NRK at the permissive temperature (33 degrees C). These same enzymatic activities show no temperature dependent changes in normal rat kidney cells (NRK) or in these same cells infected by the wild type virus (NRK B77). In extracts derived from Friend erythroleukemic cells induced to differentiate by dimethyl sulfoxide or hexamethylene bis acetamide, spermine oxidation takes place more efficiently than in non induced cells. A rise in diamine oxidase activity is seen in LA31 NRK (39 degrees C) 12 h after the temperature shift, whereas morphological manifestations of normalcy are seen only at 48 h. The Km of diamine oxidase is 10(-6) M for putrescine and 10(-3) M for 3-aminopropanol. A possible mechanism involving the well documented acetylation of putrescine [23,26] is proposed for diverting intracellular putrescine away from cytosolic diamine oxidase and towards intramitochondrial monoamine oxidase.

Differential retention of rhodamine 123 by avian sarcoma virus-induced glioma and normal brain tissue of the rat in vivo.

The time course of uptake, retention and clearance of the cationic lipophilic dye, rhodamine 123 (Rh123), within the central nervous system was qualitatively evaluated in rats. Weanling rats were injected intracerebrally with avian sarcoma virus, which induced malignant gliomas in situ before injection of Rh123. Comparison was made of the amount of fluorescence of Rh123 within the normal cerebral cortex, myelinated tracts of the brain, meninges, choroid plexus, and neoplastic foci at 1, 4, 8, 12 and 24 hours after intravenous injection. Fluorescence microscopy was utilized to identify tissues containing the dye. Normal neuropil did not contain Rh123 at any of the time periods studied. Gliomas retained the dye at 1, 4, 8 and 12 hours, with increasing uniformity of distribution and decreasing intensity of fluorescence over this time period. Fluorescence was not detected at 24 hours within the neoplastic tissues, but was evident at all time periods studied within the choroid plexus. The specific retention of Rh123 by malignant glioma and by the choroid plexus in vivo suggests that Rh123 may be useful for photochemotherapeutic treatment of brain neoplasms and disorders of the choroid plexus.

Specific increase in thymidine transport at a permissive temperature in the rat kidney cells infected with srcts-Rous sarcoma virus.

Thymidine transport was found to be increased two-fold at a permissive temperature in the cells of a normal rat kidney (NRK) line which was infected with a temperature-sensitive Rous sarcoma virus. This increase in thymidine transport was independent of cell density and coincided with the changes in cellular morphology that result from this temperature shift. A double reciprocal plot of the data demonstrated two saturable components (Km values of 60 microM and 250 microM at 39 degrees, non-permissive temperature) of the uptake of thymidine, and the drop of temperature (at 33 degrees, the permissive temperature for transformation) decreased Km to one half, but did not change Vmax. These results indicate that a qualitative alteration of thymidine transport took place in the presence of the active src gene product.

Changes in the synthesis and phosphorylation of cellular proteins in chick fibroblasts transformed by two avian sarcoma viruses.

35S- and 32P-labeled proteins from control chick embryo fibroblasts and from fibroblasts transformed by UR2 sarcoma virus, or by a temperature-sensitive mutant (tsLA29) of Rous sarcoma virus, were separated by two-dimensional electrophoresis on giant gels to detect transformation-specific changes in protein synthesis and total phosphorylation. A nontransforming avian retrovirus, UR2-associated virus (UR2AV), was also studied. Virus-coded proteins appear in whole cell lysates of all infected cells. The structural proteins can be identified by comparison with proteins immunoprecipitated with antivirus serum. The transforming proteins pp60src and p68ros, present in cells transformed with Rous sarcoma virus and UR2, respectively, are phosphorylated in vivo. Eighteen increases and eight decreases in cellular phosphoproteins are associated with transformation, and revert toward normal levels when cells infected with tsLA29 are incubated at 42 degrees C. These changes are more extensive than previously reported, but none represent new phosphorylations, since all phosphoproteins seen in transformed cells also appear to be phosphorylated to a certain extent in control cells. Fifteen cellular proteins show increased relative rates of synthesis apparently related either to transformation or to growth at 42 degrees C. Four other proteins are increased exclusively in cells incubated at 42 degrees C, but not at 37 degrees C, whether transformed or not. Eleven additional increases in the synthesis of cellular proteins, many quite large, and one seemingly a de novo induction, appear to be specific for transformation. These changes occur in cells transformed by either UR2 or Rous sarcoma virus at 37 degrees C, do not occur with UR2AV infection, and tend to revert in cells infected with tsLA29 incubated at 42 degrees C. These 11 changes may represent increases in cellular gene expression that are related specifically to the maintenance of the transformed state.